Homework Help is Here – Start Your Trial Now!
Engineering
Mechanical Engineering
You are designing a piping system to facilitate the transfer of water from one industrial process to the next. You need the water to condense from saturated vapor to saturated liquid at a constant 1000 kPa as it flows through the piping system. The pipe is to be made of plain carbon steel with thermal conductivity ? = 60 W m-K⁄ and inner and outer radii ?? = 5 cm and ?? = 7 cm, respectively. The thermodynamic property table at the end of this problem will be helpful throughout your analysis. a) If the convection coefficient between the steam and inner wall of the pipe is “very large”, what is the temperature of the inner pipe wall along its entire length? (Hint: Isobaric phase change is also iso___?) b) The fluid surrounding the pipe has temperature ?∞ = 30°C and the convection coefficient from the pipe to this fluid is ℎ = 100 W/m2⋅K. What is the heat transfer rate out of the pipe, per unit meter of pipe? You may neglect radiation effects. Use a thermal resistance network in your analysis. c) The mass flow rate through the piping system is to be 0.75 kg/s. How long must the pipe be to meet this design criteria?

You are designing a piping system to facilitate the transfer of water from one industrial process to the next. You need the water to condense from saturated vapor to saturated liquid at a constant 1000 kPa as it flows through the piping system. The pipe is to be made of plain carbon steel with thermal conductivity ? = 60 W m-K⁄ and inner and outer radii ?? = 5 cm and ?? = 7 cm, respectively. The thermodynamic property table at the end of this problem will be helpful throughout your analysis. a) If the convection coefficient between the steam and inner wall of the pipe is “very large”, what is the temperature of the inner pipe wall along its entire length? (Hint: Isobaric phase change is also iso___?) b) The fluid surrounding the pipe has temperature ?∞ = 30°C and the convection coefficient from the pipe to this fluid is ℎ = 100 W/m2⋅K. What is the heat transfer rate out of the pipe, per unit meter of pipe? You may neglect radiation effects. Use a thermal resistance network in your analysis. c) The mass flow rate through the piping system is to be 0.75 kg/s. How long must the pipe be to meet this design criteria?

Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)
Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)
8th Edition
ISBN:9781305387102
Author:Kreith, Frank; Manglik, Raj M.
Publisher:Kreith, Frank; Manglik, Raj M.
Chapter9: Heat Transfer With Phase Change
Section: Chapter Questions
Problem 9.4DP
See similar textbooks
icon
Related questions
Question

You are designing a piping system to facilitate the transfer of water from one industrial
process to the next. You need the water to condense from saturated vapor to saturated
liquid at a constant 1000 kPa as it flows through the piping system. The pipe is to be made
of plain carbon steel with thermal conductivity ? = 60 W m-K⁄ and inner and outer radii
?? = 5 cm and ?? = 7 cm, respectively. The thermodynamic property table at the end of this
problem will be helpful throughout your analysis.
a) If the convection coefficient between the steam and inner wall of the pipe is “very
large”, what is the temperature of the inner pipe wall along its entire length?
(Hint: Isobaric phase change is also iso___?)
b) The fluid surrounding the pipe has temperature ?∞ = 30°C and the convection
coefficient from the pipe to this fluid is ℎ = 100 W/m2⋅K. What is the heat transfer
rate out of the pipe, per unit meter of pipe? You may neglect radiation effects. Use
a thermal resistance network in your analysis.
c) The mass flow rate through the piping system is to be 0.75 kg/s. How long must the
pipe be to meet this design criteria?

You are designing a piping system to facilitate the transfer of water from one industrial process to the next. You need the water to condense from saturated vapor to saturated liquid at a constant 1000 kPa as it flows through the piping system. The pipe is to be made of plain carbon steel with thermal conductivity k = 60 W/m-K and inner and outer radii r₁ = 5 cm and r₂ = 7 cm, respectively. The thermodynamic property table at the end of this problem will be helpful throughout your analysis. a) If the convection coefficient between the steam and inner wall of the pipe is "very large", what is the temperature of the inner pipe wall along its entire length? (Hint: Isobaric phase change is also iso_____?) b) The fluid surrounding the pipe has temperature Tx = 30°C and the convection coefficient from the pipe to this fluid is h = 100 W/m².K. What is the heat transfer rate out of the pipe, per unit meter of pipe? You may neglect radiation effects. Use a thermal resistance network in your analysis. c) The mass flow rate through the piping system is to be 0.75 kg/s. How long must the pipe be to meet this design criteria? TABLE A-5 Saturated water Press.. P kPa Pressure table (Concluded) Specific volumne, пролаз Sat. Sat. temp., liquid Teat t°C Up Sat. vapor. Vz 800 170.41 0.001115 024035 850 172.94 0.001118 0.22690 900 175.35 0.001121 0.21189 950 177.66 0.001124 0.20411 1000 179.88 0.001127 0.19435 Internal energy, klika Sa: Sat. liquid, Evap., vaco, U₂ 719.97 1856.1 2576.0 731.00 1846.9 2577.9 741.55 1838.1 2579.6 751.67 1829.6 2581.3 761.39 1821.4 2582.8 Enthalpy, kJ/kg Sat. liquid, Evep.. The Sat. vapor, h₂ 720.87 2047.5 2768.3 731.95 2038.8 2770.8 742.56 2030.5 2773.0 752.74 2022.4 2775.2 762.51 2014.6 2777.1
Transcribed Image Text:You are designing a piping system to facilitate the transfer of water from one industrial process to the next. You need the water to condense from saturated vapor to saturated liquid at a constant 1000 kPa as it flows through the piping system. The pipe is to be made of plain carbon steel with thermal conductivity k = 60 W/m-K and inner and outer radii r₁ = 5 cm and r₂ = 7 cm, respectively. The thermodynamic property table at the end of this problem will be helpful throughout your analysis. a) If the convection coefficient between the steam and inner wall of the pipe is "very large", what is the temperature of the inner pipe wall along its entire length? (Hint: Isobaric phase change is also iso_____?) b) The fluid surrounding the pipe has temperature Tx = 30°C and the convection coefficient from the pipe to this fluid is h = 100 W/m².K. What is the heat transfer rate out of the pipe, per unit meter of pipe? You may neglect radiation effects. Use a thermal resistance network in your analysis. c) The mass flow rate through the piping system is to be 0.75 kg/s. How long must the pipe be to meet this design criteria? TABLE A-5 Saturated water Press.. P kPa Pressure table (Concluded) Specific volumne, пролаз Sat. Sat. temp., liquid Teat t°C Up Sat. vapor. Vz 800 170.41 0.001115 024035 850 172.94 0.001118 0.22690 900 175.35 0.001121 0.21189 950 177.66 0.001124 0.20411 1000 179.88 0.001127 0.19435 Internal energy, klika Sa: Sat. liquid, Evap., vaco, U₂ 719.97 1856.1 2576.0 731.00 1846.9 2577.9 741.55 1838.1 2579.6 751.67 1829.6 2581.3 761.39 1821.4 2582.8 Enthalpy, kJ/kg Sat. liquid, Evep.. The Sat. vapor, h₂ 720.87 2047.5 2768.3 731.95 2038.8 2770.8 742.56 2030.5 2773.0 752.74 2022.4 2775.2 762.51 2014.6 2777.1
Expert Solution
trending now

Trending now

This is a popular solution!

steps

Step by step

Solved in 4 steps with 17 images

SEE SOLUTIONCheck out a sample Q&A here
Blurred answer
Knowledge Booster
Refrigeration and Air Conditioning
Learn more about
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, mechanical-engineering and related others by exploring similar questions and additional content below.
Similar questions
  • SEE MORE QUESTIONS
Recommended textbooks for you
Principles of Heat Transfer (Activate Learning wi…
Principles of Heat Transfer (Activate Learning wi…
Mechanical Engineering
ISBN:
9781305387102
Author:
Kreith, Frank; Manglik, Raj M.
Publisher:
Cengage Learning
SEE MORE TEXTBOOKS